# uncompyle6 version 3.2.3
# Python bytecode 3.6 (3379)
# Decompiled from: Python 3.6.8 |Anaconda custom (64-bit)| (default, Feb 21 2019, 18:30:04) [MSC v.1916 64 bit (AMD64)]
# Embedded file name: site-packages\gevent\event.py
"""Basic synchronization primitives: Event and AsyncResult"""
from __future__ import print_function
import sys
from gevent.hub import get_hub, getcurrent, _NONE
from gevent._compat import reraise
from gevent.hub import InvalidSwitchError
from gevent.timeout import Timeout
from gevent._tblib import dump_traceback, load_traceback

__all__ = ["Event", "AsyncResult"]


class _AbstractLinkable(object):
    _notifier = None

    def __init__(self):
        self._links = set()
        self.hub = get_hub()

    def ready(self):
        raise NotImplementedError()

    def _check_and_notify(self):
        if self.ready():
            if self._links:
                if not self._notifier:
                    self._notifier = self.hub.loop.run_callback(self._notify_links)

    def rawlink(self, callback):
        """
        Register a callback to call when this object is ready.
        
        *callback* will be called in the :class:`Hub <gevent.hub.Hub>`, so it must not use blocking gevent API.
        *callback* will be passed one argument: this instance.
        """
        if not callable(callback):
            raise TypeError("Expected callable: %r" % (callback,))
        self._links.add(callback)
        self._check_and_notify()

    def unlink(self, callback):
        """Remove the callback set by :meth:`rawlink`"""
        try:
            self._links.remove(callback)
        except KeyError:
            pass

    def _notify_links(self):
        todo = set(self._links)
        for link in todo:
            if link in self._links:
                try:
                    link(self)
                except:
                    self.hub.handle_error((link, self), *sys.exc_info())

                if getattr(link, "auto_unlink", None):
                    self.unlink(link)

        del todo
        del self._notifier

    def _wait_core(self, timeout, catch=Timeout):
        switch = getcurrent().switch
        self.rawlink(switch)
        try:
            timer = Timeout._start_new_or_dummy(timeout)
            try:
                try:
                    result = self.hub.switch()
                    if result is not self:
                        raise InvalidSwitchError(
                            "Invalid switch into Event.wait(): %r" % (result,)
                        )
                    return True
                except catch as ex:
                    if ex is not timer:
                        raise
                    return False

            finally:
                timer.cancel()

        finally:
            self.unlink(switch)

    def _wait_return_value(self, waited, wait_success):
        pass

    def _wait(self, timeout=None):
        if self.ready():
            return self._wait_return_value(False, False)
        else:
            gotit = self._wait_core(timeout)
            return self._wait_return_value(True, gotit)


class Event(_AbstractLinkable):
    """A synchronization primitive that allows one greenlet to wake up one or more others.
    It has the same interface as :class:`threading.Event` but works across greenlets.
    
    An event object manages an internal flag that can be set to true with the
    :meth:`set` method and reset to false with the :meth:`clear` method. The :meth:`wait` method
    blocks until the flag is true.
    
    .. note::
        The order and timing in which waiting greenlets are awakened is not determined.
        As an implementation note, in gevent 1.1 and 1.0, waiting greenlets are awakened in a
        undetermined order sometime *after* the current greenlet yields to the event loop. Other greenlets
        (those not waiting to be awakened) may run between the current greenlet yielding and
        the waiting greenlets being awakened. These details may change in the future.
    """

    _flag = False

    def __str__(self):
        return "<%s %s _links[%s]>" % (
            self.__class__.__name__,
            self._flag and "set" or "clear",
            len(self._links),
        )

    def is_set(self):
        """Return true if and only if the internal flag is true."""
        return self._flag

    isSet = is_set
    ready = is_set

    def set(self):
        """
        Set the internal flag to true.
        
        All greenlets waiting for it to become true are awakened in
        some order at some time in the future. Greenlets that call
        :meth:`wait` once the flag is true will not block at all
        (until :meth:`clear` is called).
        """
        self._flag = True
        self._check_and_notify()

    def clear(self):
        """
        Reset the internal flag to false.
        
        Subsequently, threads calling :meth:`wait` will block until
        :meth:`set` is called to set the internal flag to true again.
        """
        self._flag = False

    def _wait_return_value(self, waited, wait_success):
        if not waited:
            flag = self._flag
            if not flag:
                raise AssertionError("if we didn't wait we should already be set")
            return flag
        else:
            return wait_success

    def wait(self, timeout=None):
        """
        Block until the internal flag is true.
        
        If the internal flag is true on entry, return immediately. Otherwise,
        block until another thread (greenlet) calls :meth:`set` to set the flag to true,
        or until the optional timeout occurs.
        
        When the *timeout* argument is present and not ``None``, it should be a
        floating point number specifying a timeout for the operation in seconds
        (or fractions thereof).
        
        :return: This method returns true if and only if the internal flag has been set to
            true, either before the wait call or after the wait starts, so it will
            always return ``True`` except if a timeout is given and the operation
            times out.
        
        .. versionchanged:: 1.1
            The return value represents the flag during the elapsed wait, not
            just after it elapses. This solves a race condition if one greenlet
            sets and then clears the flag without switching, while other greenlets
            are waiting. When the waiters wake up, this will return True; previously,
            they would still wake up, but the return value would be False. This is most
            noticeable when the *timeout* is present.
        """
        return self._wait(timeout)

    def _reset_internal_locks(self):
        pass


class AsyncResult(_AbstractLinkable):
    """A one-time event that stores a value or an exception.
    
    Like :class:`Event` it wakes up all the waiters when :meth:`set` or :meth:`set_exception`
    is called. Waiters may receive the passed value or exception by calling :meth:`get`
    instead of :meth:`wait`. An :class:`AsyncResult` instance cannot be reset.
    
    To pass a value call :meth:`set`. Calls to :meth:`get` (those that are currently blocking as well as
    those made in the future) will return the value:
    
        >>> result = AsyncResult()
        >>> result.set(100)
        >>> result.get()
        100
    
    To pass an exception call :meth:`set_exception`. This will cause :meth:`get` to raise that exception:
    
        >>> result = AsyncResult()
        >>> result.set_exception(RuntimeError('failure'))
        >>> result.get()
        Traceback (most recent call last):
         ...
        RuntimeError: failure
    
    :class:`AsyncResult` implements :meth:`__call__` and thus can be used as :meth:`link` target:
    
        >>> import gevent
        >>> result = AsyncResult()
        >>> gevent.spawn(lambda : 1/0).link(result)
        >>> try:
        ...     result.get()
        ... except ZeroDivisionError:
        ...     print('ZeroDivisionError')
        ZeroDivisionError
    
    .. note::
        The order and timing in which waiting greenlets are awakened is not determined.
        As an implementation note, in gevent 1.1 and 1.0, waiting greenlets are awakened in a
        undetermined order sometime *after* the current greenlet yields to the event loop. Other greenlets
        (those not waiting to be awakened) may run between the current greenlet yielding and
        the waiting greenlets being awakened. These details may change in the future.
    
    .. versionchanged:: 1.1
       The exact order in which waiting greenlets are awakened is not the same
       as in 1.0.
    .. versionchanged:: 1.1
       Callbacks :meth:`linked <rawlink>` to this object are required to be hashable, and duplicates are
       merged.
    """

    _value = _NONE
    _exc_info = ()
    _notifier = None

    @property
    def _exception(self):
        if self._exc_info:
            return self._exc_info[1]
        else:
            return _NONE

    @property
    def value(self):
        """
        Holds the value passed to :meth:`set` if :meth:`set` was called. Otherwise,
        ``None``
        """
        if self._value is not _NONE:
            return self._value

    @property
    def exc_info(self):
        """
        The three-tuple of exception information if :meth:`set_exception` was called.
        """
        if self._exc_info:
            return (
                self._exc_info[0],
                self._exc_info[1],
                load_traceback(self._exc_info[2]),
            )
        else:
            return ()

    def __str__(self):
        result = "<%s " % (self.__class__.__name__,)
        if self.value is not None or self._exception is not _NONE:
            result += "value=%r " % self.value
        if self._exception is not None:
            if self._exception is not _NONE:
                result += "exception=%r " % self._exception
        if self._exception is _NONE:
            result += "unset "
        return result + " _links[%s]>" % len(self._links)

    def ready(self):
        """Return true if and only if it holds a value or an exception"""
        return self._exc_info or self._value is not _NONE

    def successful(self):
        """Return true if and only if it is ready and holds a value"""
        return self._value is not _NONE

    @property
    def exception(self):
        """Holds the exception instance passed to :meth:`set_exception` if :meth:`set_exception` was called.
        Otherwise ``None``."""
        if self._exc_info:
            return self._exc_info[1]

    def set(self, value=None):
        """Store the value and wake up any waiters.
        
        All greenlets blocking on :meth:`get` or :meth:`wait` are awakened.
        Subsequent calls to :meth:`wait` and :meth:`get` will not block at all.
        """
        self._value = value
        self._check_and_notify()

    def set_exception(self, exception, exc_info=None):
        """Store the exception and wake up any waiters.
        
        All greenlets blocking on :meth:`get` or :meth:`wait` are awakened.
        Subsequent calls to :meth:`wait` and :meth:`get` will not block at all.
        
        :keyword tuple exc_info: If given, a standard three-tuple of type, value, :class:`traceback`
            as returned by :func:`sys.exc_info`. This will be used when the exception
            is re-raised to propagate the correct traceback.
        """
        if exc_info:
            self._exc_info = (exc_info[0], exc_info[1], dump_traceback(exc_info[2]))
        else:
            self._exc_info = (type(exception), exception, dump_traceback(None))
        self._check_and_notify()

    def _raise_exception(self):
        reraise(*self.exc_info)

    def get(self, block=True, timeout=None):
        """Return the stored value or raise the exception.
        
        If this instance already holds a value or an exception, return  or raise it immediatelly.
        Otherwise, block until another greenlet calls :meth:`set` or :meth:`set_exception` or
        until the optional timeout occurs.
        
        When the *timeout* argument is present and not ``None``, it should be a
        floating point number specifying a timeout for the operation in seconds
        (or fractions thereof). If the *timeout* elapses, the *Timeout* exception will
        be raised.
        
        :keyword bool block: If set to ``False`` and this instance is not ready,
            immediately raise a :class:`Timeout` exception.
        """
        if self._value is not _NONE:
            return self._value
        elif self._exc_info:
            return self._raise_exception()
        else:
            if not block:
                raise Timeout()
            self._wait_core(timeout, ())
            return self.get(block=False)

    def get_nowait(self):
        """
        Return the value or raise the exception without blocking.
        
        If this object is not yet :meth:`ready <ready>`, raise
        :class:`gevent.Timeout` immediately.
        """
        return self.get(block=False)

    def _wait_return_value(self, waited, wait_success):
        return self.value

    def wait(self, timeout=None):
        """Block until the instance is ready.
        
        If this instance already holds a value, it is returned immediately. If this
        instance already holds an exception, ``None`` is returned immediately.
        
        Otherwise, block until another greenlet calls :meth:`set` or :meth:`set_exception`
        (at which point either the value or ``None`` will be returned, respectively),
        or until the optional timeout expires (at which point ``None`` will also be
        returned).
        
        When the *timeout* argument is present and not ``None``, it should be a
        floating point number specifying a timeout for the operation in seconds
        (or fractions thereof).
        
        .. note:: If a timeout is given and expires, ``None`` will be returned
            (no timeout exception will be raised).
        
        """
        return self._wait(timeout)

    def __call__(self, source):
        if source.successful():
            self.set(source.value)
        else:
            self.set_exception(source.exception, getattr(source, "exc_info", None))

    def result(self, timeout=None):
        return self.get(timeout=timeout)

    set_result = set

    def done(self):
        return self.ready()

    def cancel(self):
        return False

    def cancelled(self):
        return False
